Phase Equilibria Investigation of Binary, Ternary, and Higher Order Systems, Part II - Effect of Rhenium and Aluminum Additions on the Metal-Rich Equilibria in the Titanium-Molybdenum-Carbon and Titanium-Niobium-Carbon Systems
Report Number: AFML TR 69-117 Part 2
Author(s): Brukl, C. E.
Corporate Author(s): Aerojet-General Corporation
Laboratory: Air Force Materials Laboratory
Date of Publication: 1969-08
Pages: 31
Contract: F33615-67-C-1513
DoD Project: None Given
Identifier: AD0695063
Abstract:
The solid state phase equilibria of the metal-rich regions of the Titanium-Molybdenum-Carbon and Titanium-Niobium-Carbon systems with up to 12 At. % Rhenium and 10 At.% Aluminum additions, respectively, have been determined on hot pressed, heat treated, and in part arc melted alloys. The phase equilibria in the metal-rich regions, with these additions, is practically unchanged over that of the ternary Titanium-Molybdenum-Carbon and Titanium-Niobium-Carbon systems; the existence of the large two-phased areas, monocarbide plus metal phases, remains.
Provenance: Lockheed Martin Missiles & Fire Control
Author(s): Brukl, C. E.
Corporate Author(s): Aerojet-General Corporation
Laboratory: Air Force Materials Laboratory
Date of Publication: 1969-08
Pages: 31
Contract: F33615-67-C-1513
DoD Project: None Given
Identifier: AD0695063
Abstract:
The solid state phase equilibria of the metal-rich regions of the Titanium-Molybdenum-Carbon and Titanium-Niobium-Carbon systems with up to 12 At. % Rhenium and 10 At.% Aluminum additions, respectively, have been determined on hot pressed, heat treated, and in part arc melted alloys. The phase equilibria in the metal-rich regions, with these additions, is practically unchanged over that of the ternary Titanium-Molybdenum-Carbon and Titanium-Niobium-Carbon systems; the existence of the large two-phased areas, monocarbide plus metal phases, remains.
Provenance: Lockheed Martin Missiles & Fire Control